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Effect of Pd promotion and catalyst support on the Ni-catalyzed deoxygenation of tristearin to fuel-like hydrocarbons

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  • Wang, Fei
  • Pace, Robert
  • Ji, Yaying
  • Jiang, Jianchun
  • Jiang, Xiaoxiang
  • Krystianiak, Anna
  • Heintz, Olivier
  • Caboche, Gilles
  • Santillan-Jimenez, Eduardo
  • Crocker, Mark

Abstract

The incomplete reduction and poor dispersion of Ni sites restrict the catalytic performance of Ni catalysts in the decarboxylation/decarbonylation (DCX/DCN) of triglycerides to fuel-like hydrocarbons. In this study, by employing Pd as promoter and/or using multifunctional supports, the activity of Ni catalysts in tristearin deoxygenation was greatly improved. Notably, 25%Ni/Al2O3 and 0.75%Pd/Al2O3 displayed conversion values ≤ 2%. In contrast, 25%Ni-0.75%Pd/Al2O3 afforded 100% conversion, 100% yield of diesel-like hydrocarbons and a selectivity to C17 – the main product of DCN/DCX – of 67%. The fact that the performance of the Ni–Pd catalyst is vastly superior to that of the corresponding monometallic formulations is clearly indicative of a promotion effect resulting from the interaction between the two metals. Pd addition promoted Ni reduction, thereby increasing the number of active sites. The effect of different supports (Al2O3, SiO2–Al2O3, ZrO2, and Ce0.8Pr0.2O2) of Ni–Pd catalysts were studied, and the use of SiO2–Al2O3 was observed to enhance catalyst performance by further promoting Ni reduction as well as through its high surface area and strong acidity. Moreover, using SiO2–Al2O3 as the support partially changes the deoxygenation pathway from DCX/DCN to hydrodeoxygenation, which is attributed to the ability of strong acid sites to catalyze the dehydrogenation of an alcohol intermediate to the corresponding alkene.

Suggested Citation

  • Wang, Fei & Pace, Robert & Ji, Yaying & Jiang, Jianchun & Jiang, Xiaoxiang & Krystianiak, Anna & Heintz, Olivier & Caboche, Gilles & Santillan-Jimenez, Eduardo & Crocker, Mark, 2022. "Effect of Pd promotion and catalyst support on the Ni-catalyzed deoxygenation of tristearin to fuel-like hydrocarbons," Renewable Energy, Elsevier, vol. 195(C), pages 1468-1479.
  • Handle: RePEc:eee:renene:v:195:y:2022:i:c:p:1468-1479
    DOI: 10.1016/j.renene.2022.06.065
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    References listed on IDEAS

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    1. Cao, Xincheng & Long, Feng & Wang, Fei & Zhao, Jiaping & Xu, Junming & Jiang, Jianchun, 2021. "Chemoselective decarboxylation of higher aliphatic esters to diesel-range alkanes over the NiCu/Al2O3 bifunctional catalyst under mild reaction conditions," Renewable Energy, Elsevier, vol. 180(C), pages 1-13.
    2. Burimsitthigul, Thikhamporn & Yoosuk, Boonyawan & Ngamcharussrivichai, Chawalit & Prasassarakich, Pattarapan, 2021. "Hydrocarbon biofuel from hydrotreating of palm oil over unsupported Ni–Mo sulfide catalysts," Renewable Energy, Elsevier, vol. 163(C), pages 1648-1659.
    3. Ameen, Mariam & Azizan, Mohammad Tazli & Yusup, Suzana & Ramli, Anita & Yasir, Madiha, 2017. "Catalytic hydrodeoxygenation of triglycerides: An approach to clean diesel fuel production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 80(C), pages 1072-1088.
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    Cited by:

    1. Tsiotsias, Anastasios I. & Hafeez, Sanaa & Charisiou, Nikolaos D. & Al-Salem, Sultan M. & Manos, George & Constantinou, Achilleas & AlKhoori, Sara & Sebastian, Victor & Hinder, Steven J. & Baker, Mark, 2023. "Selective catalytic deoxygenation of palm oil to produce green diesel over Ni catalysts supported on ZrO2 and CeO2–ZrO2: Experimental and process simulation modelling studies," Renewable Energy, Elsevier, vol. 206(C), pages 582-596.
    2. Stefania Lucantonio & Andrea Di Giuliano & Leucio Rossi & Katia Gallucci, 2023. "Green Diesel Production via Deoxygenation Process: A Review," Energies, MDPI, vol. 16(2), pages 1-44, January.

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